Hydrogen - the most common element in the universe
Green Hydrogen - the Ultimate Energy Carrier
completely CO free
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About us
Hydron-i, a company created by people with vast experience in the sector of Renewable Energy Sources, is investing in the construction of Green Hydrogen Production Plants powered by large scale sustainable R.E.S., using:
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High-End Technology Equipment
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Well-Planned and Innovative Transportation Ways
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Efficient Cost Production Techniques
The main area of activity of Hydron-i is the European Union Countries.
Hydron-i, will deliver hydrogen and can offer CO2 offtake solutions to customers with thorough process of any produced emissions.
Green Hydrogen
The Efficient Energy Carrier
Hydrogen is an energy carrier, not an energy source and can deliver or store a tremendous amount of energy. It can be used in fuel cells to generate electricity, or power and heat.
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Hydrogen is a clean fuel that, when consumed in a fuel cell, produces only water, electricity, and heat. It can provide energy for use in diverse applications, including distributed or combined-heat-and-power; backup power; systems for storing and enabling renewable energy; portable power; auxiliary power for trucks, aircraft, rail, and ships; specialty vehicles; passenger and freight vehicles.
Climate Neutral Economy
Ecosystems and societies globally face dramatic and negative consequences as accelerated anthropogenic CO2 emissions continue to place us well above the IPCC 2C warming scenario target.
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Hydrogen’s unique properties, such as high gravimetric energy density and ability to be transformed, stored and transported under multiple forms (for example, in gaseous or liquid form or converted to other molecules), make it a powerful enabler for the decarbonization and energy transition, with benefits for both the energy system and end-use applications.
Green Hydrogen
Green hydrogen is produced through water electrolysis fueled by renewable-based electricity. Water electrolysers are devices that use electricity to separate water molecules into hydrogen and oxygen. Multiple water electrolyser technologies exist today: Alkaline, Proton Exchange Membrane (PEM), Solid Oxide Electrolyser Cells (SOEC) and Anion Exchange Membrane (AEM). Alkaline and PEM technologies represent all the installed capacity today and h2ydron-i is using PEM Electrolyser for the design of its production plants.
Versatility in Application
Hydrogen energy is very versatile, as it can be used in gas or liquid form, be converted into electricity or fuel, and there are many ways of producing it. It contains almost three times as much energy as fossil fuels, so less of it is needed to do any work.
Green Hydrogen Applications
The European Green Deal identifies hydrogen as key to a clean and circular economy. The European Union (EU) has issued a specific hydrogen strategy in 2020, bundling measures to promote a fast and targeted development of production capacities for green hydrogen.
Hydrogen can be used for re-electrification through gas motors, gas turbines, and fuel cells. It can also be used as a feedstock for the chemical industry (ammonia, syn-fuels, green chemicals, etc.), as fuel for transportation, a reducing agent for the steel industry, to produce heat for industrial processes, as gas for residential heating and cooking purposes, and also as energy for export.
Industrial applications
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Oil refining
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Chemicals production
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Iron and steel production
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High-temperature heat
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Food industry
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Mobility
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Light-duty vehicles
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Heavy-duty vehicles
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Maritime
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Rail
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Aviation
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Power generation
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Co-firing NH3 in coal power plants
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Flexible power generation
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Back-up and off-grid power supply
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Long-term, large-scale storage
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Gas energy
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Blended H2
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Methanation
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Pure H2
Production Plants
GH2PP in Southeast Europe
Hydron-i is currently in an Advanced Stage of Development for the materialization of 11 Green Hydrogen Production Plants in Southeast Europe.
The production facilities that are planned for construction in Southeast Europe take advantages of the area’s following offered merits:
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high GHI and wind potential for the production of low cost power through PVs and WFs
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proximity to extensive Natural Gas network for an injection transport solution
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proximity to power networks
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proximity to water sources
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proximity to the sea and marine facilities for future sea vessels bunkering
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connection to the railroad and a good road networks for land transports
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adequate land areas
